Profiles

  • Richard Johnson

    Richard Johnson

    Rick Johnson focuses on integrating policy and law with science, engineering, Big Data, and biomedicine to drive research and innovation and to enable problem-oriented solutions to global challenges. His current interests include: (1) synthetic biology, the engineering of biology, and the industrialization of biology; (2) the bioeconomy and next-generation production economy; (3) neuroscience and brain health, especially Alzheimer’s; and (4) policy issues for convergence, international S&T, and Big Data. Rick is the CEO and founder of Global Helix LLC, a thought leadership and innovative strategic positioning firm. After 30 years, Rick retired as Senior Partner at Arnold & Porter LLP in Washington, D.C., where he represented many of the leading research universities, foundations, and innovative multinational companies about enabling basic research, international collaborations, innovation strategies, and public-private partnerships through innovative approaches to law and policy. Johnson is a member of the Board on Life Sciences at the National Academy of Sciences (NAS) and the NAS Synthetic Biology Leadership Forum, and serves as Chairman of the NAS Bioeconomy initiative. He is a member of several other NAS initiatives: biomedical innovation and precision medicine; convergence and next-generation infrastructures; synthetic biology and the industrialization of biology; the BRAIN initiative; and the intersection of science and security issues. He also serves as the Chairman of the BIAC Technology & Innovation Committee at the OECD, and he recently was named one of the 14 global members of the new OECD Global Advisory Council for Science, Technology, and Innovation. In addition, Rick is the Chairman of Brown’s Biology & Medicine Council and is a member of the boards for EBRC, the Stanford BioFab and BioBricks Foundation, and the iGEM Foundation for global education. For many years, Rick served on the MIT Corporation Committee, and numerous university-industry boards. In addition to receiving his Juris Doctor degree from the Yale Law School where he was Editor of the Yale Law Journal, he received his M.S. from the Massachusetts Institute of Technology where he was a National Science Foundation National Fellow and MIT distinguished young scholar, and his undergraduate degree with highest honors from Brown University.

  • Ute Galm

    Ute Galm is a molecular microbiologist with 10+ years of experience in strain engineering, synthetic biology, and industrial biotechnology and is the Vice President of Enzyme and Strain Development at Curie Co. After more than a decade in R&D and product development, Ute believes it is critical to wisely use what nature provides to us in the development of sustainable solutions to protect humanity and to preserve our planet. Before joining Curie Co, Ute was an Associate Director at Zymergen, a company that integrates automation, machine learning, and genomics to rapidly accelerate the pace of scientific advancement. Prior to joining Zymergen, Ute worked as a scientist and group leader at Dow AgroSciences on the development of fermentation derived insecticide and fungicide products. She graduated from the University of Tuebingen, Germany with a PhD degree in Pharmaceutical Biology and received her postdoctoral training at the University of Wisconsin at Madison. Ute is passionate about all aspects of using biology to develop sustainable solutions for human health and other market applications. Ute can be reached at ute.galm@curieco.com.

  • James Diggans

    James Diggans is Director, Data Science and Biosecurity for Twist Bioscience, a DNA synthesis company based in San Francisco, CA. He holds a PhD from George Mason University in Computational Biology and Bioinformatics and has worked in target discovery, molecular diagnostic development and biodefense including five years leading the computational biology group at the MITRE Corporation. His research has included methods for efficient detection of biological weapons release, machine learning-based cancer diagnosis, and novel algorithmic approaches to discerning intent in oligonucleotide-length DNA synthesis requests. At Twist, his group builds cloud-based bioinformatics systems for effective biosecurity screening and analysis of next generation sequencing data to power silicon-based DNA synthesis at record scale.

  • Mark Styczynski

    Mark received a B.S. in chemical engineering from the University of Notre Dame in 2002 and a Ph.D. in Chemical Engineering from MIT in 2007. He also did postdoctoral work at the Broad Institute from 2007-2009. At Georgia Tech, Mark’s work spans synthetic and systems biology, and often includes work at the intersection of those two fields. His main Engineering Biology focus is on the development of low-cost, low-resource diagnostics.

  • Pamela Silver

    Pamela Silver

  • Vincent Noireaux

    Vincent Noireaux got his B.Sc. in applied physics at the University of Tours (France) in 1994. In 1995 he moved to Paris for physics graduate school at the University Paris 11 (Orsay). He did his PhD at the Curie Institute (Paris, 1996-2000) in biological physics in the laboratory of Jacques Prost on the motion of the bacterium Listeria. He studied the actin cytoskeleton mechanisms involved in cell motility and learned the biology related to this project in the laboratory of Daniel Louvard. In 2000 he joined the laboratory of Albert Libchaber at the Rockefeller University in New York City where he spent five years as a postdoc. He used cell-free expression systems to construct elementary gene networks and synthetic cell systems. In 2005, he moved to the University of Minnesota where he is pursuing his work in synthetic biology using cell-free expression. His research consists of constructing and characterizing biochemical systems by executing synthetic DNA programs in vitro, from simple regulatory elements to synthetic cells.

  • Joshua Leonard

  • Julius Lucks

    Julius B. Lucks is Associate Chair and Professor of Chemical and Biological Engineering at Northwestern University. Research in the Lucks Lab asks fundamental questions about the molecules of life. They are particularly fascinated by how RNA, DNA’s close chemical cousin, acts as a mini molecular computer inside cells, allowing it to continuously monitor the status of itself and its environment. They then translate newly discovered fundamental knowledge into new ways to engineer biological systems for the health of ourselves and the planet, with recent applications to sustainable biomanufacturing and low cost water quality diagnostics.

    For his research, Professor Lucks has been recognized with a number of awards including a DARPA Young Faculty Award, an Alfred P. Sloan Foundation Research Fellowship, an ONR Young Investigator Award, an NIH New Innovator Award, an NSF CAREER award, the ACS Synthetic Biology Young Investigator Award, and most recently a Camille-Dreyfus Teacher Scholar Award. Professor Lucks is also heavily invested in helping to train the next generation of scientists and engineers through his co-founding of the Cold Spring Harbor Synthetic Biology Summer Course and his roles as a founding board member of the Engineering Biology Research Consortium. Please visit http://luckslab.org or on twitter @luckslab for more information.

  • Natalie Kuldell

    Dr. Natalie Kuldell leads BioBuilder, a nonprofit organization that inspires the next generation of innovators with authentic science and engineering. BioBuilder’s synthetic biology curriculum breeds excitement by helping students and teachers design and then build
    biotechnologies that solve real problems throughout the US and around the world. A BioBuilder textbook was published by O’Reilly Media. In 2017, BioBuilder opened a community lab in Kendall Square’s LabCentral.

    Dr. Kuldell studied Chemistry as an undergraduate at Cornell, completed her doctoral and post-doctoral work at Harvard Medical School, and taught at Wellesley College before joining the Department of Biological Engineering faculty at MIT in 2003. She is the 2020 recipient of the Margret and H.A. Rey Curiosity Award.

  • Eric Klavins

  • Elisa Franco

    Elisa Franco

  • Paul Freemont

    Paul Freemont

    Professor Paul Freemont is the co-founder of the Imperial College Centre for Synthetic Biology and Innovation (2009) and co-founder and co-director of the National UK Innovation and Knowledge Centre for Synthetic Biology (SynbiCITE; since 2013) and Director of the London BioFoundry (since 2016) at Imperial College London. He is also currently the Head of the Section of Structural Biology in the Department of Medicine at Imperial. His research interests span from understanding the molecular mechanisms of human diseases and infection to developing synthetic biology foundational tools for specific applications. His research group has pioneered the use of cell free extract systems for synthetic biology prototyping and biosensor applications and he is the author of over 220 scientific publications (H-index 72). He is an elected member of European Molecular Biology Organisation and Fellow of the UK’s Royal Society of Biology, Royal Society of Chemistry and Royal Society of Medicine. He was a co-author of the British Government’s UK Synthetic Biology Roadmap and was a recent member of the Ad Hoc Technical Expert Group (AHTEG) on synthetic biology for the United Nations Convention for Biological Diversity (UN-CBD).

  • John Dueber

    John Dueber is an Associate Professor of Bioengineering at University of California, Berkeley. He earned his Ph.D. in 2005 engineering synthetic signaling switch proteins to investigate how domain recombination events could reprogram the signaling behaviors of proteins at the University of California, San Francisco. As a QB3 Distinguished Fellow, mentored by Prof. Jay Keasling, he focused on the use of synthetic biology approaches for improved metabolic engineering performance. Modular protein-protein interaction domains were used to build synthetic scaffolds capable of co-localizing metabolic enzymes tagged with corresponding ligands for these protein-protein interaction domains. Starting his lab in 2010, his lab focuses on developing technologies for increasing engineering control over cells for a variety of engineering applications, particularly metabolic engineering. He has been awarded a NSF CAREER, DOE Early Career, and Bakar Fellow award.

  • Jason Delborne

    Jason Delborne

    Jason A. Delborne joined NC State in August 2013 as a Chancellor’s Faculty Excellence Program cluster hire in Genetic Engineering and Society (GES) and an associate professor of science, policy and society in the Department of Forestry and Environmental Resources. He also serves on the executive committee of the Genetic Engineering and Society Center. Delborne’s research focuses on highly politicized scientific controversies, drawing upon the interdisciplinary field of science, technology, and society (STS). He engages various qualitative research methodologies to ask questions about how policymakers and members of the public interface with controversial science.

  • Cynthia Collins

  • Chase Beisel

  • Christopher Anderson

  • Kersh Thevasundaram

    Kersh is a PhD student in the Chemical Biology program at UC Berkeley. His research aims to understand the cellular physiology of Methanococcus maripaludis, an archaeal platform for sustainable chemical synthesis using CO2 as a feedstock. As part of the SPA, Kersh has initiated the Mentorship program for the EBRC and continues to pair mentors and mentees, assess the quality of the program through quarterly feedback and organize events for mentors and mentees to meet.

  • Do Soon Kim

    Do Soon Kim is a PhD candidate in the Jewett Lab at Northwestern University. In his research, he works on designing variant ribosomes using experimental and computational methods. As an industry liaison in SPA, Do Soon is working on compiling and developing a resume book to better connect SPA members to EBRC industry members!

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